N=2 Moduli Spaces and N=1 Dualities for SO(nc) and USp(2nc) SuperQCD

Abstract

We determine the exact global structure of the moduli space of N=2 supersymmetric SO(n) and (2n) gauge theories with matter hypermultiplets in the fundamental representations, using the non-renormalization theorem for the Higgs branches and the exact solutions for the Coulomb branches. By adding an (N=2)--breaking mass term for the adjoint chiral field and varying the mass, the N=2 theories can be made to flow to either an ``electric'' N=1 supersymmetric QCD or its N=1 dual ``magnetic'' version. We thus obtain a derivation of the N=1 dualities of Seiberg.

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